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 * Please obtain a copy of the License at
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/*[
    1999-8-10	Godfrey van der Linden(gvdl)
	Created.
]*/
/*! @language embedded-c++ */

#ifndef _IOKIT_IOCOMMANDGATE_H
#define _IOKIT_IOCOMMANDGATE_H

#include <IOKit/IOEventSource.h>

/*!
    @class IOCommandGate : public IOEventSource
    @abstract Single-threaded work-loop client request mechanism.
    @discussion An IOCommandGate instance is an extremely light way mechanism
that executes an action on the driver's work-loop.  'On the work-loop' is
actually a lie but the work-loop single threaded semantic is maintained for this
event source.  Using the work-loop gate rather than execution by the workloop.
The command gate tests for a potential self dead lock by checking if the
runCommand request is made from the work-loop's thread, it doesn't check for a
mutual dead lock though where a pair of work loop's dead lock each other.
<br><br>
	The IOCommandGate is a lighter weight version of the IOCommandQueue and
should be used in preference.  Generally use a command queue whenever you need a
client to submit a request to a work loop.  A typical command gate action would
check if the hardware is active, if so it will add the request to a pending
queue internal to the device or the device's family.  Otherwise if the hardware
is inactive then this request can be acted upon immediately.
<br><br>
    CAUTION: The runAction, runCommand, and attemptCommand functions cannot be called from an interrupt context.

*/
class IOCommandGate : public IOEventSource
{
    OSDeclareDefaultStructors(IOCommandGate)

public:
/*!
    @typedef Action
    @discussion Type and arguments of callout C function that is used when
a runCommand is executed by a client.  Cast to this type when you want a C++
member function to be used.  Note the arg1 - arg3 parameters are straight pass
through from the runCommand to the action callout.
    @param owner
	Target of the function, can be used as a refcon.  The owner is set
during initialisation of the IOCommandGate instance.	 Note if a C++ function
was specified this parameter is implicitly the first paramter in the target
member function's parameter list.
    @param arg0 Argument to action from run operation.
    @param arg1 Argument to action from run operation.
    @param arg2 Argument to action from run operation.
    @param arg3 Argument to action from run operation.
*/
    typedef IOReturn (*Action)(OSObject *owner,
			       void *arg0, void *arg1,
			       void *arg2, void *arg3);

protected:

/*! @struct ExpansionData
    @discussion This structure will be used to expand the capablilties of the IOWorkLoop in the future.
    */    
    struct ExpansionData { };

/*! @var reserved
    Reserved for future use.  (Internal use only)  */
    ExpansionData *reserved;

public:
/*! @function commandGate
    @abstract Factory method to create and initialise an IOCommandGate, See $link init.
    @result Returns a pointer to the new command gate if sucessful, 0 otherwise. */
    static IOCommandGate *commandGate(OSObject *owner, Action action = 0);

/*! @function init
    @abstract Class initialiser.
    @discussion Initialiser for IOCommandGate operates only on newly 'newed'
objects.  Shouldn't be used to re-init an existing instance.
    @param owner 	Owner of this, newly created, instance of the IOCommandGate.  This argument will be used as the first parameter in the action callout.
    @param action
	Pointer to a C function that is called whenever a client of the
IOCommandGate calls runCommand.	 NB Can be a C++ member function but caller
must cast the member function to $link IOCommandGate::Action and they will get a
compiler warning.  Defaults to zero, see $link IOEventSource::setAction.
    @result True if inherited classes initialise successfully. */
    virtual bool init(OSObject *owner, Action action = 0);

    // Superclass overrides
    virtual void free();
    virtual void setWorkLoop(IOWorkLoop *inWorkLoop);

/*! @function runCommand
    @abstract Single thread a command with the target work-loop.
    @discussion Client function that causes the current action to be called in
a single threaded manner.  Beware the work-loop's gate is recursive and command
gates can cause direct or indirect re-entrancy.	 When the executing on a
client's thread runCommand will sleep until the work-loop's gate opens for
execution of client actions, the action is single threaded against all other
work-loop event sources.  If the command is disabled the attempt to run a command will be stalled until enable is called.
    @param arg0 Parameter for action of command gate, defaults to 0.
    @param arg1 Parameter for action of command gate, defaults to 0.
    @param arg2 Parameter for action of command gate, defaults to 0.
    @param arg3 Parameter for action of command gate, defaults to 0.
    @result kIOReturnSuccess if successful. kIOReturnAborted if a disabled command gate is free()ed before being reenabled, kIOReturnNoResources if no action available.
*/
    virtual IOReturn runCommand(void *arg0 = 0, void *arg1 = 0,
				void *arg2 = 0, void *arg3 = 0);

/*! @function runAction
    @abstract Single thread a call to an action with the target work-loop.
    @discussion Client function that causes the given action to be called in
a single threaded manner.  Beware the work-loop's gate is recursive and command
gates can cause direct or indirect re-entrancy.	 When the executing on a
client's thread runAction will sleep until the work-loop's gate opens for
execution of client actions, the action is single threaded against all other
work-loop event sources.  If the command is disabled the attempt to run a command will be stalled until enable is called.
    @param action Pointer to function to be executed in work-loop context.
    @param arg0 Parameter for action parameter, defaults to 0.
    @param arg1 Parameter for action parameter, defaults to 0.
    @param arg2 Parameter for action parameter, defaults to 0.
    @param arg3 Parameter for action parameter, defaults to 0.
    @result kIOReturnSuccess if successful. kIOReturnBadArgument if action is not defined, kIOReturnAborted if a disabled command gate is free()ed before being reenabled.
*/
    virtual IOReturn runAction(Action action,
			       void *arg0 = 0, void *arg1 = 0,
			       void *arg2 = 0, void *arg3 = 0);

/*! @function attemptCommand
    @abstract Single thread a command with the target work-loop.
    @discussion Client function that causes the current action to be called in
a single threaded manner.  When the executing on a client's thread attemptCommand will fail if the work-loop's gate is closed.
    @param arg0 Parameter for action of command gate, defaults to 0.
    @param arg1 Parameter for action of command gate, defaults to 0.
    @param arg2 Parameter for action of command gate, defaults to 0.
    @param arg3 Parameter for action of command gate, defaults to 0.
    @result kIOReturnSuccess if successful. kIOReturnNotPermitted if this event source is currently disabled, kIOReturnNoResources if no action available, kIOReturnCannotLock if lock attempt fails.
*/
    virtual IOReturn attemptCommand(void *arg0 = 0, void *arg1 = 0,
                                    void *arg2 = 0, void *arg3 = 0);

/*! @function attemptAction
    @abstract Single thread a call to an action with the target work-loop.
    @discussion Client function that causes the given action to be called in
a single threaded manner.  Beware the work-loop's gate is recursive and command
gates can cause direct or indirect re-entrancy.	 When the executing on a
client's thread attemptCommand will fail if the work-loop's gate is closed.
    @param action Pointer to function to be executed in work-loop context.
    @param arg0 Parameter for action parameter, defaults to 0.
    @param arg1 Parameter for action parameter, defaults to 0.
    @param arg2 Parameter for action parameter, defaults to 0.
    @param arg3 Parameter for action parameter, defaults to 0.
    @result kIOReturnSuccess if successful. kIOReturnBadArgument if action is not defined, kIOReturnNotPermitted if this event source is currently disabled, kIOReturnCannotLock if lock attempt fails.

*/
    virtual IOReturn attemptAction(Action action,
                                   void *arg0 = 0, void *arg1 = 0,
                                   void *arg2 = 0, void *arg3 = 0);

/*! @function commandSleep  
    @abstract Put a thread that is currently holding the command gate to sleep.
    @discussion Put a thread to sleep waiting for an event but release the gate first.  If the event occurs then the commandGate is closed before the function returns.
    @param event Pointer to an address.
    @param interruptible THREAD_UNINT, THREAD_INTERRUPTIBLE or THREAD_ABORTSAFE.  THREAD_UNINT specifies that the sleep cannot be interrupted by a signal.  THREAD_INTERRUPTIBLE specifies that the sleep may be interrupted by a "kill -9" signal.  THREAD_ABORTSAFE (the default value) specifies that the sleep may be interrupted by any user signal.
    @result THREAD_AWAKENED - normal wakeup, THREAD_TIMED_OUT - timeout expired, THREAD_INTERRUPTED - interrupted, THREAD_RESTART - restart operation entirely, kIOReturnNotPermitted if the calling thread does not hold the command gate. */
    virtual IOReturn commandSleep(void *event,
                                  UInt32 interruptible = THREAD_ABORTSAFE);

/*! @function commandWakeup
    @abstract Wakeup one or more threads that are asleep on an event.
    @param event Pointer to an address.
    @param onlyOneThread true to only wake up at most one thread, false otherwise. */
    virtual void commandWakeup(void *event, bool oneThread = false);

/*! @function disable
    @abstract Disable the command gate
    @discussion When a command gate is disabled all future calls to runAction and runCommand will stall until the gate is enable()d later.  This can be used to block client threads when a system sleep is requested.  The IOWorkLoop thread itself will never stall, even when making runAction/runCommand calls.  This call must be made from a gated context, to clear potential race conditions.  */
    virtual void disable();

/*! @function enable
    @abstract Enable command gate, this will unblock any blocked Commands and Actions.
    @discussion  Enable the command gate.  The attemptAction/attemptCommand calls will now be enabled and can succeeed.  Stalled runCommand/runAction calls will be woken up. */
    virtual void enable();

/*! @function commandSleep  
    @abstract Put a thread that is currently holding the command gate to sleep.
    @discussion Put a thread to sleep waiting for an event but release the gate first.  If the event occurs or timeout occurs then the commandGate is closed before the function returns.
    @param event Pointer to an address.
	@param deadline Clock deadline to timeout the sleep.
    @param interruptible THREAD_UNINT, THREAD_INTERRUPTIBLE or THREAD_ABORTSAFE.  THREAD_UNINT specifies that the sleep cannot be interrupted by a signal.  THREAD_INTERRUPTIBLE specifies that the sleep may be interrupted by a "kill -9" signal.  THREAD_ABORTSAFE specifies that the sleep may be interrupted by any user signal.
    @result THREAD_AWAKENED - normal wakeup, THREAD_TIMED_OUT - timeout expired, THREAD_INTERRUPTED - interrupted, THREAD_RESTART - restart operation entirely, kIOReturnNotPermitted if the calling thread does not hold the command gate. */
    virtual IOReturn commandSleep(void *event,
								  AbsoluteTime deadline,
                                  UInt32 interruptible);

private:
#if __LP64__
    OSMetaClassDeclareReservedUnused(IOCommandGate, 0);
#else
    OSMetaClassDeclareReservedUsed(IOCommandGate, 0);
#endif
    OSMetaClassDeclareReservedUnused(IOCommandGate, 1);
    OSMetaClassDeclareReservedUnused(IOCommandGate, 2);
    OSMetaClassDeclareReservedUnused(IOCommandGate, 3);
    OSMetaClassDeclareReservedUnused(IOCommandGate, 4);
    OSMetaClassDeclareReservedUnused(IOCommandGate, 5);
    OSMetaClassDeclareReservedUnused(IOCommandGate, 6);
    OSMetaClassDeclareReservedUnused(IOCommandGate, 7);
};

#endif /* !_IOKIT_IOCOMMANDGATE_H */
